How nanomouldrelease works 

This is a representation of Nanomouldrelease’s self-arranging molecules when they are first applied to a surface.
Above is a representation of Nanomouldrelease’s self-arranging molecules
when they are first applied to a surface.
The diagram above shows the 3 regions of Nanomouldrelease's
self-arranging coating after hardening:
= The upper region that permanently adheres itself to the cross-linked nanomesh.
= The centre region upon which the upper and lower regions are permanently fused to.
= The lower region that anchors itself to the surface.
As seen in the diagrams above, this coating's upper and lower regions perform highly specialized tasks; the upper region repels fluids and does not allow foreign substances to anchor themselfves onto its surface and, the lower region adheres firmly to the surface structure of the material it is applied onto. The center region serves as a binder that permanently keeps the upper and lower regions in place.
SEM pictures taken by Institute of medicine and science
at Tubingen University (NMI) Germany on Nano Mould Release Coatings
Nanomouldrelease’s revolutionary surface coating comprises three intrinsic parts
that self-assemble when applied to surface structures. Together, these three
regions function as a whole and work synergistically in forming a nanomesh
(a microscopic netting) that prohibits fluids from coming into contact with surface structures while, at the same time, allowing an unimpeded flow of vapor out from
the substrate into the atmosphere.

The scientific explanation is as follows:

All particles posses behavioral characteristics in themselves and in relation to other particles in variances of ratios and environs. Such behavioral traits occur both at nanoscale and macroscale and are collectively known as Interdisciplinary Phenomena.

The delivery system that Nanomouldrelease incorporates involves the use of a
solvent cage (an ethanol base fluid) which effectively ferries reactive (unstable)
and non-reactive (stable) particles and prevents them from forming molecular structures.

When Nanomouldrelease is applied onto the substrate, the principles of Interdisciplinary and Inter-Facial Phenomena take effect as the ethanol base
solution out-gasses whereby the reactive particles immediately affix themselves
to the substrate surface while the binding region bonds to the reactive and
non-reactive regions in latter succession.

The miniscule physical proportions of this nanomesh deny passage to molecular structures. Only entities at particle size can pass through the nanomesh hence,
it is vapor permeable.

After completion of the curing period, a uniformed and inter-linking microstructure permanently forms on the substrate surface. The upper region of the microstructure, by virtue of its hybrid material base, is chemically inert and thus exudes hydrophobic properties.

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